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SF-C1011USB-D3.9-720P60
SINCEREFIRST
Our 3.9mm separated USB endoscope camera module is built for OEM customers who need a compact imaging solution for medical visualization devices and precision inspection systems. Based on the OmniVision OH01A10 sensor platform, it combines a slim optical head, flexible integration, and stable image transmission for miniature imaging applications. The module adopts a separated design, in which the imaging head and the USB processing section are arranged independently to provide more flexibility for system layout and device integration. With a 3.9mm outer diameter and a steel shell structure, the optical head is suitable for narrow-space insertion while maintaining better mechanical protection during assembly and operation. This makes the module a practical choice for compact medical OEM devices, precision maintenance tools, and other miniature observation systems. We optimize this module with a 1.25mm focal length, F4.0 aperture, and a 10–100mm focusing range, allowing it to support both close-range detail observation and medium-distance viewing requirements. For low-light environments, the lens integrates 4 pieces of 0402 white LED illumination, helping improve visibility inside narrow cavities and enclosed structures. In terms of system integration, the module uses a USB2.0 interface and supports the UVC protocol, making it easier for customers to evaluate and integrate with compatible host devices and mainstream operating systems. We position this product as a compact and customizable OEM imaging module rather than a generic consumer accessory. For customers who require different structures, optics, cables, or integration methods, we can also support project-based customization. |  |
We use a 3.9mm optical head with a separated design to help customers integrate the module more flexibly into compact medical or industrial systems.
Based on the OmniVision OH01A10 sensor platform, this module is suitable for miniature imaging applications that require a small optical structure and stable image output.
We optimize the optical configuration for short- to medium-distance observation, making the module practical for narrow-space imaging and close-range detail capture.
The optical design balances field coverage, image clarity, and structural miniaturization, making it suitable for compact endoscopic imaging applications.
We integrate 4 LED lights into the lens structure to provide auxiliary illumination for low-light environments and enclosed inspection spaces.
The module supports USB2.0 and UVC, helping simplify host-side evaluation, image testing, and OEM system integration.
The steel shell improves the durability of the optical head and provides additional protection during installation and practical use.
| Parameter | Specification |
|---|---|
| Product Type | Separate Endoscope Camera Module |
| Sensor | OH01A10 |
| Module Diameter | 3.9mm |
| Shell Material | Steel Shell |
| Interface | USB2.0 |
| Protocol | UVC |
| Focusing Range | 10–100mm |
| Focal Length | 1.25mm |
| F Number | 4.0 |
| FOV(D) | 75° |
| TV Distortion | < -10% |
| Focus Type | Manual Focus |
| LED | 4 pcs 0402 White LED |
| Basic Tolerance | ±0.1mm |
We recommend this module for medical device integration projects that require a compact camera head for visualization, observation, or system development. It is suitable for OEM projects involving miniature medical imaging assemblies and compatible endoscopic visualization devices.
It is also suitable for precision inspection and maintenance systems where customers need a slim camera head for narrow spaces, hidden structures, and enclosed observation environments.
For customers developing customized products, the separated structure can provide more flexibility in system arrangement, cable routing, and host-side integration.
1. Otolaryngology Examination: The 3.9mm lens penetrates deep into the nasal cavity and ear canal. The combination of short focal length and focusing range captures mucosal details, and the LED lights assist doctors in rapid diagnosis.
2. Oral Observation: It reaches hidden areas such as between teeth. The manual focusing mode presents details like tartar, providing a basis for oral diagnosis and treatment.
3. Precision Instrument Maintenance: The split design facilitates operation, clearly captures component details, and the steel sleeve protects the lens.
4. Cultural Relics Restoration Observation: It goes deep into gaps of cultural relics. LED lighting and manual focusing help restorers see fine cracks and decorations clearly.
We understand that many medical and industrial imaging projects require more than a standard catalog module. Based on your application, we can support evaluation for different cable structures, optical parameters, integration forms, and housing solutions. If your project requires a modified diameter, a different field of view, or a customized interface arrangement, our engineering team can communicate with you during development.
We are a professional and high-end oriented manufacturer of endoscope camera modules with long-term experience in miniature imaging solutions. We can supply ready-made endoscope camera modules from 0.9mm to 10.0mm, including separate, medical, industrial, side-view, and LED configurations. Our manufacturing capability is supported by precision production equipment, R&D resources, ISO13485-based quality management, and multiple reliability and image quality testing processes.
1. What is the difference between medical and industrial endoscope modules?
The medical module emphasizes biocompatibility, sterilization and high image quality, and needs to comply with FDA/CE certification; Industrial modules focus on durability (such as corrosion protection), wide temperature operation (-20°C to 70°C), and special light sources (such as UV).
2. How to evaluate the cost performance of the module?
For comprehensive resolution, durability, and after-sales support (such as medical modules that require calibration services from manufacturers), industrial scenarios can prioritize MTBF (mean time to failure) indicators.
3. What are the typical requirements for custom modules?
Common requirements include special dimensions (e.g., 1mm diameter), multispectral imaging (e.g., fluorescence navigation), and interface protocol adaptation (e.g., interfacing with DICOM systems).
